JP2016009210A - Data generation device, data generation method, and data generation program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily extract an area that satisfies the intention of a user.SOLUTION: A data generation device includes: a display section configured to display a region object whose contour is extracted from a processing object image by an image processing application; an operation section configured to accept a selection condition to select a region object intended by a user from among the region objects displayed by the display section; and a contour extraction section configured to extract the contour of the region object selected based on the selection condition accepted by the operation section. When the contour of the region object selected by the contour extraction section is extracted, the display section distinctively displays the selected region object and an unselected region object.

Description

  The present invention relates to a data generation device, a data generation method, and a data generation program.

  Image forming technology using clear toner has attracted attention in order to bring the image quality of electrophotographic technology close to that of offset printing and provide new added value to expand the market of digital printing systems. Also, in order to specify a clear toner area during image formation, an area detection technique for placing clear toner and a method for creating an area object have been considered, and several techniques for preventing erroneous detection of the clear toner area are known. ing.

  However, when an area not intended by the user is detected, an area object for placing unnecessary clear toner may be created. When such a false detection occurs, an operation for re-exposing an area and an operation for deleting an unnecessary area object occur. In addition, when an unnecessary area object remains, the next process such as area correction work is affected.

  Japanese Patent Laid-Open No. 2004-228561 extracts a detailed outline after extracting a rough outline of an object in an original image, and sets conditions, detailed extraction conditions, etc. so that the extraction result is within a predetermined error range. An image processing apparatus for which is determined is disclosed.

  However, there is a problem that it is not possible to easily extract a region according to the user's intention.

  The present invention has been made in view of the above, and an object of the present invention is to provide a data generation device, a data generation method, and a data generation program that can easily extract a region according to a user's intention. To do.

  In order to solve the above-described problems and achieve the object, the present invention provides a display unit that displays a region object whose contour is extracted from a processing target image by an image processing application, and a region object displayed by the display unit. An operation unit that receives a selection condition for selecting a region object intended by the user, and an outline extraction unit that extracts an outline of the region object selected based on the selection condition received by the operation unit, and the display When the contour of the region object selected by the contour extraction unit is extracted, the unit distinguishes and displays the selected region object and the non-selected region object.

  According to the present invention, there is an effect that it is possible to easily extract a region according to the user's intention.

FIG. 1 is a block diagram illustrating functions of the data generation apparatus according to the embodiment of the present invention. FIG. 2 is a diagram illustrating a hardware configuration example of the data generation apparatus. FIG. 3 is a diagram illustrating a user interface. FIG. 4 is a conceptual diagram conceptually showing the operation of the data generating apparatus. FIG. 5 is a schematic diagram schematically showing an operation when the contour extraction unit selects a region object by the number of objects. FIG. 6 is a flowchart illustrating a process performed by the result management unit in the process of selecting by the number of objects. FIG. 7 is a sequence diagram illustrating a process in which the data generation device selects the number of area objects as the contour extraction result. FIG. 8 is a schematic diagram schematically illustrating a filtering operation performed by the contour extraction unit when the number of area objects is changed. FIG. 9 is a diagram illustrating a modification of the display performed by the contour extraction result operation monitor. FIG. 10 is a flowchart illustrating processing performed when the result management unit displays the contour extraction result shown in FIG. FIG. 11 is a flowchart illustrating processing performed when the data generation apparatus displays a region object as a contour extraction result. FIG. 12 is a schematic diagram schematically illustrating processing in which the contour extracting unit selects a region object by specifying a reference size. FIG. 13 is a flowchart showing processing performed by the result management unit in selecting a region object by specifying a reference size. FIG. 14 is a sequence diagram illustrating processing in which the data generation device selects a region object by specifying a reference size. FIG. 15 is a schematic diagram schematically illustrating an operation performed by the contour extracting unit when an unnecessary area object is specified and deleted. FIG. 16 is a flowchart illustrating an outline of processing performed by the result management unit and the contour extraction unit when an unnecessary area object is specified and deleted. FIG. 17 is a sequence diagram illustrating processing for designating and deleting unnecessary area objects by the data generation apparatus. FIG. 18 is a chart illustrating filtering parameters used in the filtering operation.

  Embodiments of a data generation device will be described below in detail with reference to the accompanying drawings. FIG. 1 is a block diagram illustrating functions of the data generation apparatus 1 according to the embodiment of the invention. As shown in FIG. 1, the data generation device 1 includes, for example, an operation unit 10, a data input unit 11, an operation control unit 12, a contour extraction control unit 13, a display unit 14, and a data storage unit 15. It is possible to create an area object to be placed.

  The operation unit 10 is an input device such as a keyboard or a mouse. The data input unit 11 stores the input electronic data received via the operation unit 10 in the data storage unit 15 and converts it into preview display data in a data format that can be handled by the display unit 14.

  The operation control unit 12 converts the mouse operation received by the operation unit 10 into a usable event and notifies it. Further, the operation control unit 12 determines a tool based on the event received by the operation unit 10 and notifies the display unit 14 of the tool.

  The contour extraction control unit 13 includes a processing range determination unit 130, a result management unit 132, and a contour extraction unit 134, which will be described later, and an object for displaying the processing range based on the position and data received by the operation control unit 12. Is generated. The contour extraction control unit 13 may be configured by hardware or software. The display unit 14 is a display device such as a display device. The data storage unit 15 is a storage medium such as a hard disk drive (HDD) or a flash memory.

  Note that each function of the data generation apparatus 1 may be realized by a CPU 106 described later executing a data generation program. The data generation program is a file in an installable or executable format, recorded on a computer-readable recording medium such as a CD-ROM, CD-R, DVD (Digital Versatile Disk) and the like as a computer program product. May be provided.

  FIG. 2 is a diagram illustrating a hardware configuration example of the data generation device 1. As shown in FIG. 2, the data generation device 1 includes a keyboard 100, a display 101, an HDD 102, a RAM 103, a VRAM 104, a ROM (not shown), an input / output interface (I / O) 105, and a CPU (Central Processing Unit) 106. It has a hardware configuration with a computer function.

  FIG. 3 is a diagram illustrating a user interface (UI) displayed on the display unit 14. The application 140 is an image processing application that operates in the data generation apparatus 1 and generates data indicating an area in accordance with the user's intention. Here, the application 140 is an example of Adobe Illustrator (registered trademark).

  The document 142 is a processing target image that is a target of data generation. The plug-in UI 144 is used for execution of contour extraction, correction operation, and the like. The region extraction result operation monitor (contour extraction result operation monitor) 146 is a sub-screen UI of the plug-in UI 144 displayed to realize a data generation function.

  FIG. 4 is a conceptual diagram conceptually showing the operation of the data generation device 1. The processing range determination unit 130 determines the processing range by surrounding the processing range with respect to the document data in accordance with a user operation. That is, the processing range determination unit 130 determines a processing range intended by the user for the processing target image according to an operation received via the operation unit 10.

  The contour extraction unit 134 extracts the contour of the region object selected based on the selection condition described later with respect to the processing range determined by the processing range determination unit 130, and causes the result management unit 132 to manage (described later) the contour extraction result. . In addition, the contour extracting unit 134 extracts a contour using the selected region object as a spot color object. The spot color object is an object using a toner other than CMYK such as clear toner, fluorescent toner, silver toner, and gold toner.

  The result management unit 132 causes the contour extraction unit 134 to select the contour extraction result. That is, the contour extraction unit 134 selects a contour extraction result managed (described later) by the result management unit 132 in accordance with an operation on the contour extraction result operation monitor 146 by the user. Here, a selection method (selection condition) is selected from among a method for specifying the number of object selections, a method for specifying a reference size, and a method for specifying and deleting unnecessary objects on the screen.

  Specifically, the operation unit 10 receives a selection condition for selecting a region object intended by the user from the region objects displayed on the display unit 14. For example, the selection conditions include conditions that use information indicating the number and characteristics of area objects as selection criteria, conditions that consider area objects smaller than area objects specified by the user as unnecessary area objects, and areas specified by the user. There are conditions for regarding an object as an unnecessary area object.

  FIG. 5 is a schematic diagram schematically illustrating an operation when the contour extraction unit 134 selects a region object as a contour extraction result based on the number of objects. As illustrated in FIG. 5A, the contour extraction unit 134 specifies a range in which an area is desired to be extracted as a processing range in response to a user operation on the processing range determination unit 130.

  FIG. 5B shows a result of detecting a region by setting the number of regions extracted by the contour extracting unit 134 to four. FIG. 5C shows the result of the contour extraction unit 134 detecting the region by looking at the result shown in FIG. 5B and changing the number of regions to be extracted from 4 to 2. Yes. In FIG. 5C, the detection result is shown with priority in the descending order of area (object). Then, the contour extraction unit 134 extracts the contour of the region object selected based on the selection condition received by the operation unit 10.

  FIG. 6 is a flowchart illustrating processing performed by the result management unit 132 in processing for selecting by the number of objects. After displaying the contour extraction result, the result management unit 132 starts the timing when the user specifies the number of objects selected from the contour extraction result operation monitor 146.

  First, the result management unit 132 updates the number of selected objects according to the input via the contour extraction result operation monitor 146 (S100). Next, the result management unit 132 updates the graphics object data of the contour extraction result by re-contour extraction based on the update result (S102), and converts the graphics object data of the contour extraction result into a binary image (S102). S104). Next, the result management unit 132 updates the processing result of S104 to the contour extraction result operation monitor 146 (S106). In other words, the result management unit 132 updates the display on the display unit 14, updates the value of the selected size designation on the contour extraction result operation monitor 146, and ends.

  FIG. 7 is a sequence diagram illustrating a process in which the data generation device 1 selects the number of area objects as the contour extraction result. The operation unit 10 notifies a user operation event to the operation control unit 12 (S200). The operation control unit 12 notifies the contour reextraction process to the contour extraction control unit 13 (S202). The contour extraction control unit 13 updates the contour extraction result of the result management unit 132 (S204). The result management unit 132 updates the contour extraction data (graphics object) (S206).

  The contour extraction unit 134 reads data from the data storage unit 15 (S208). Here, the contour extraction unit 134 also reads the number of selected objects.

  The contour extraction unit 134 searches for an object (S210) and reads data displayed on the display unit 14 (S212). Next, the contour extraction unit 134 performs image object rasterization (S214), and reads data displayed on the display unit 14 (S216). Note that the contour extraction unit 134 repeats the processing of S210 to S216 as many times as the number of objects within the processing range.

  The contour extracting unit 134 performs contour extraction (S218), and reads data from the data storage unit 15 (S220). Further, the contour extracting unit 134 creates graphic objects as contour extraction results for the number of selected objects (S222), and stores them in the data storage unit 15 (S224). Then, the contour extracting unit 134 displays the updated contour object on the document of the display unit 14 (S226). Here, the contour extracting unit 134 causes the display unit 14 to display the contour object updated with a color different from the contour object before the update. That is, when the contour extracting unit 134 extracts the contour of the region object selected, the display unit 14 displays the selected region object and the non-selected region object separately.

  The result management unit 132 holds the contour extraction result graphic object (S228) and converts it into a binary image (S230). Then, the result management unit 132 updates the contour extraction result operation monitor 146 displayed on the display unit 14 (S232).

  FIG. 8 is a schematic diagram schematically illustrating a filtering operation performed by the contour extracting unit 134 when the number of area objects is changed. The contour extraction unit 134 sets the number of regions to be detected as 4, for example, as illustrated in FIG. 8A according to the user's operation, selects a processing range, and performs region detection.

  FIGS. 8B and 8C show a case where the number of areas to be detected is changed to two. When the number of areas to be detected by the user is reduced, the contour extracting unit 134 changes the number of areas by applying a filter according to the priority order of the remaining areas (see the parameters shown in FIG. 18).

  As shown in FIG. 8B, when the priorities are set in the order of increasing area, the contour extracting unit 134 detects areas in descending order of area, and areas exceeding the number of areas to be detected are deleted candidates. The area is displayed on the display unit 14 as an area. As shown in FIG. 8C, when the priorities are set in the order of the longest outer circumference, the contour extracting unit 134 detects areas in the order of the outer circumference in the longest order. The area is displayed on the display unit 14 as an area.

  FIG. 9 is a diagram illustrating a modification of the display performed by the contour extraction result operation monitor 146. As illustrated in FIG. 9, the result management unit 132 may designate a processing range and display the region result on the contour extraction result operation monitor 146 as a binary image (for example, a white image). That is, the display unit 14 displays a binary image indicating the area object selected by the contour extraction unit 134.

  FIG. 10 is a flowchart showing processing performed when the result management unit 132 displays the contour extraction result shown in FIG. The timing when the user selects the processing range and designates the start of contour extraction is set as the starting point.

  The result management unit 132 creates a graphics object based on the contour extraction result (S300), and converts the graphics object of the contour extraction result into a binary image (S302). Then, the result management unit 132 displays the converted binary image on the contour extraction result operation monitor 146 (S304).

  FIG. 11 is a flowchart illustrating processing performed when the data generation apparatus 1 displays a region object as a contour extraction result. First, the operation unit 10 designates an electronic image file to the data input unit 11 (S400). The data input unit 11 stores data (electronic file) in the data storage unit 15 (S402). Further, the data input unit 11 causes the display unit 14 to display an image (electronic file) (S404).

  Secondly, the operation unit 10 selects a tool for the operation control unit 12 (S410). The operation control unit 12 displays the UI of the selection tool on the display unit 14 (S412).

  Third, the operation unit 10 notifies the operation control unit 12 of a user operation event (S420). The operation control unit 12 notifies the contour extraction control unit 13 of processing range designation (S422). The contour extraction control unit 13 designates the processing range of the processing range determination unit 130 (S424). The processing range determination unit 130 stores data in the data storage unit 15 (S426). In addition, the processing range determination unit 130 displays the processing range on the display unit 14 (S428).

  Fourth, the operation unit 10 notifies the operation control unit 12 of a user operation event (S430). The operation control unit 12 notifies the contour extraction control unit 13 of a contour extraction processing request (S432). The contour extraction control unit 13 generates a contour extraction result for the result management unit 132 (S434). The result management unit 132 requests the contour extraction unit 134 to generate contour extraction data (graphics object) (S436).

  The contour extraction unit 134 reads data from the data storage unit 15 (S438). Here, the contour extraction unit 134 also reads the setting of the number of contour extractions.

  The contour extraction unit 134 searches for an object (S440), and reads data from the data storage unit 15 (S442). Next, the contour extraction unit 134 performs image object rasterization (S444), and reads data from the data storage unit 15 (S446). Note that the contour extracting unit 134 repeats the processing of S440 to S446 as many times as the number of objects within the processing range.

  The contour extracting unit 134 performs contour extraction (S448) and reads data from the data storage unit 15 (S450). In addition, the contour extraction unit 134 creates a graphic object as a contour extraction result (S452) and stores it in the data storage unit 15 (S454). Then, the contour extracting unit 134 displays the contour object on the display unit 14 (S456).

  The result management unit 132 holds the contour extraction result graphic object (S458) and converts it into a binary image (S460). Then, the result management unit 132 displays the contour extraction result operation monitor 146 on the display unit 14 (S462).

  FIG. 12 is a schematic diagram schematically illustrating processing in which the contour extracting unit 134 selects a region object by specifying a reference size. When the contour extraction unit 134 selects a reference object according to a user operation, such as a broken line object illustrated in FIG. 12, an object smaller than the size of the object is excluded from the contour extraction result.

  FIG. 13 is a flowchart illustrating processing performed by the result management unit 132 in selecting a region object by specifying a reference size. The result management unit 132 displays the contour extraction result on the display unit 14, and then starts the timing when the user specifies the object selection size from the contour extraction result operation monitor 146.

  First, the result management unit 132 sets a selection size using the object input on the contour extraction result operation monitor 146 as a reference size (S500). Next, the result management unit 132 updates the graphics object data of the contour extraction result by re-contour extraction based on the set selection size (S502), and converts the graphics object data of the contour extraction result into a binary image. (S504). Next, the result management unit 132 updates the processing result of S504 to the contour extraction result operation monitor 146 (S506). That is, the result management unit 132 updates the display of the display unit 14, updates the designated value of the number of selections in the contour extraction result operation monitor 146, and ends the process.

  FIG. 14 is a sequence diagram illustrating processing in which the data generation device 1 selects a region object by specifying a reference size. The operation unit 10 notifies a user operation event to the operation control unit 12 (S600). The operation control unit 12 notifies the contour reextraction process to the contour extraction control unit 13 (S602). The contour extraction control unit 13 updates the contour extraction result of the result management unit 132 (S604). The result management unit 132 updates the contour extraction data (graphics object) (S606).

  The contour extraction unit 134 reads data from the data storage unit 15 (S608). Here, the contour extraction unit 134 also reads reference size information.

  The contour extracting unit 134 searches for an object (S610), and reads data displayed on the display unit 14 (S612). Next, the contour extraction unit 134 performs image object rasterization (S614), and reads data displayed on the display unit 14 (S616). Note that the contour extracting unit 134 repeats the processing of S610 to S616 as many times as the number of objects within the processing range.

  The contour extracting unit 134 performs contour extraction (S618) and reads data from the data storage unit 15 (S620). Further, the contour extracting unit 134 creates a graphic object of the contour extraction result that is equal to or larger than the reference size (S622), and stores it in the data storage unit 15 (S624). Then, the contour extraction unit 134 displays the updated contour object on the document of the display unit 14 (S626). Here, the contour extracting unit 134 causes the display unit 14 to display the contour object updated with a color different from the contour object before the update. That is, when the contour extracting unit 134 extracts the contour of the region object selected, the display unit 14 displays the selected region object and the non-selected region object separately.

  The result management unit 132 holds the contour extraction result graphic object (S628) and converts it into a binary image (S630). Then, the result management unit 132 updates the contour extraction result operation monitor 146 displayed on the display unit 14 (S632).

  FIG. 15 is a schematic diagram schematically illustrating an operation performed by the contour extracting unit 134 when an unnecessary area object is specified and deleted. On the dialog that displays the region extraction result shown in FIG. 15B as a binary image with respect to the processing range shown in FIG. Select and delete unnecessary areas according to user operations.

  FIG. 16 is a flowchart illustrating an outline of processing performed by the result management unit 132 and the contour extraction unit 134 when an unnecessary area object is specified and deleted. The result management unit 132 displays the contour extraction result on the display unit 14, and then starts when the user designates deletion from the contour extraction result operation monitor 146 as an unnecessary object.

  The contour extraction unit 134 excludes the region object designated on the contour extraction result operation monitor 146 from the target object (S700), and updates the graphics object data of the contour extraction result by re-contour extraction (S702). The result management unit 132 converts the graphics object data of the contour extraction result into a binary image based on the processing result of S702 (S704), and updates the conversion result to the contour extraction result operation monitor 146 (S706). . In other words, the result management unit 132 updates the display of the display unit 14, updates the selection of the contour extraction result operation monitor 146 and the designation of the selected size, and ends.

  FIG. 17 is a sequence diagram illustrating a process in which the data generation device 1 designates and deletes unnecessary area objects. The operation unit 10 notifies a user operation event to the operation control unit 12 (S800). The operation control unit 12 notifies the contour reextraction process to the contour extraction control unit 13 (S802). The contour extraction control unit 13 updates the contour extraction result of the result management unit 132 (S804). The result management unit 132 sets an object to be deleted (S806). The result management unit 132 updates the contour extraction data (graphics object) (S808).

  The contour extraction unit 134 reads data from the data storage unit 15 (S810). Next, the contour extracting unit 134 searches for an object (S812), and reads data displayed on the display unit 14 (S814). Next, the contour extracting unit 134 performs image object rasterization (S816), and reads data displayed on the display unit 14 (S818). Note that the contour extraction unit 134 repeats the processing of S812 to S818 as many times as the number of objects within the processing range.

  The contour extracting unit 134 performs contour extraction (S820), and reads data from the data storage unit 15 (S822). Further, the contour extracting unit 134 creates a graphic object as a contour extraction result other than the object to be deleted (S824), and stores it in the data storage unit 15 (S826). Then, the contour extraction unit 134 displays the updated contour object on the document of the display unit 14 (S828). Here, the contour extracting unit 134 causes the display unit 14 to display the contour object updated with a color different from the contour object before the update. That is, when the contour extracting unit 134 extracts the contour of the region object selected, the display unit 14 displays the selected region object and the non-selected region object separately.

  The result management unit 132 holds the contour extraction result graphic object (S830) and converts it into a binary image (S832). Then, the result management unit 132 updates the contour extraction result operation monitor 146 displayed on the display unit 14 (S834).

  FIG. 18 is a chart illustrating the filtering parameters used in the filtering operation when the contour extracting unit 134 performs selection according to the number of area object selections. As described above, when the data generation device 1 performs selection according to the number of area objects selected, the data generation apparatus 1 can perform selection according to area characteristics (area size, area outer circumference length, etc.). It is. Here, the data generation device 1 performs selection based on the size of the region, for example, by comparing the area parameters of the objects.

  As described above, the data generation apparatus 1 can select the processing range and perform the area object selection work by the following methods, and can improve the work efficiency of the user.

  First, the data generation device 1 displays the region extraction result as a candidate value, compares the region characteristics (region size, region outer periphery length, etc.) according to the number of region objects selected, and region object Is selected. Further, the data generation device 1 displays and reselects the selected result together with the non-selected area object.

  Secondly, the data generation device 1 displays a monitor (binary image) that allows confirmation of where the area object is created, and allows the user to make a selection while visually confirming it.

  Third, the data generation device 1 can select only region objects that are larger than the reference size.

  Fourth, the data generation device 1 can exclude the selected object from the result while confirming one monitor.

DESCRIPTION OF SYMBOLS 1 Data production | generation apparatus 10 Operation part 11 Data input part 12 Operation control part 13 Contour extraction control part 14 Display part 15 Data storage part 100 Keyboard 101 Display 102 HDD
103 RAM
106 CPU
130 processing range determination unit 132 result management unit 134 contour extraction unit 140 application 146 contour extraction result operation monitor

JP 2006-133941 A

Claims (9)

A display unit for displaying a region object whose contour is extracted from the processing target image by the image processing application;
An operation unit for receiving a selection condition for selecting a region object intended by the user from among the region objects displayed by the display unit;
A contour extracting unit that extracts a contour of a region object selected based on a selection condition accepted by the operation unit;
Have
The display unit
A data generation device characterized in that when a contour of a selected region object is extracted by the contour extraction unit, the selected region object and a non-selected region object are displayed separately. A processing range determination unit that determines a processing range intended by the user for the processing target image according to an operation received via the operation unit;
The contour extraction unit
The data generation apparatus according to claim 1, wherein an outline of a region object selected based on the selection condition is extracted within a processing range determined by the processing range determination unit. The contour extraction unit
The data generation device according to claim 1, wherein the contour is extracted using the selected region object as a spot color object. The display unit
The data generation apparatus according to any one of claims 1 to 3, wherein a binary image indicating a region object selected by the contour extraction unit is displayed. The operation unit is
The data generation device according to any one of claims 1 to 4, wherein a selection condition for regarding a region object specified by a user as an unnecessary region object is received. The operation unit is
5. The data generation device according to claim 1, wherein a selection condition in which an area object smaller than an area object specified by a user is regarded as an unnecessary area object is received. The operation unit is
The data generation device according to any one of claims 1 to 4, wherein a selection condition using information indicating the number and characteristics of area objects as a reference for selection is received. Displaying a region object whose contour is extracted from the processing target image by the image processing application;
Receiving a selection condition for selecting a region object intended by the user from the displayed region objects;
Extracting the contour of the selected area object based on the accepted selection conditions;
A data generation method including a step of distinguishing and displaying a selected area object and a non-selected area object when the outline of the selected area object is extracted. Displaying a region object whose contour is extracted from the processing target image by the image processing application;
Receiving a selection condition for selecting a region object intended by the user from the displayed region objects;
Extracting the contour of the selected area object based on the accepted selection conditions;
A data generation program for causing a computer to execute the step of distinguishing and displaying selected area objects and non-selected area objects when the outline of the selected area object is extracted.

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